期刊
RESULTS IN PHYSICS
卷 9, 期 -, 页码 871-878出版社
ELSEVIER
DOI: 10.1016/j.rinp.2018.03.050
关键词
Second grade fluid; Temperature dependent thermal conductivity; Stagnation point flow; Activation energy; Thermal stratification; Non-Fourier heat flux
Here we investigated stagnation point flow of second grade fluid over a stretchable cylinder. Heat transfer is characterized by non-Fourier law of heat flux and thermal stratification. Temperature dependent thermal conductivity and activation energy are also accounted. Transformations procedure is applying to transform the governing PDE's into ODE's. Obtained system of ODE's are solved analytically by HAM. Influence of flow variables on velocity, temperature, concentration, skin friction and Sherwood number are analyzed. Obtained outcome shows that velocity enhanced through curvature parameter, viscoelastic parameter and velocities ratio variable. Temperature decays for larger Prandtl number, thermal stratification, thermal relaxation and curvature parameter. Sherwood number and concentration field show opposite behavior for higher estimation of activation energy, reaction rate, curvature parameter and Schmidt number.
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